Landgraf method
In: local elastic-plastic strain methods->uniaxial methods
In comparison to the SWT criterion the Landgraf method expects that the mean stress affects only the Basquin curve (i.e. the high-cycle fatigue region):
Negative mean stress is expected to be non-damaging and its value is reset to zero. The conversion to an equivalent value allows a use of the common uniaxial rain-flow decomposition. The choice of the appropriate decomposition method is the point in Calculation Methods window, where the way of the tensor's reduction is chosen.
Nomenclature:
|
Mark |
Unit |
PragTic variable |
Meaning |
|
|
[MPa] |
mean stress |
|
|
|
[-] |
strain amplitude |
|
|
E |
[MPa] |
E |
tensile modulus |
|
|
[MPa] |
SIG_F |
fatigue strength coefficient |
|
|
[-] |
EPS_F |
fatigue ductility coefficient |
|
b |
[-] |
EXP_B |
fatigue strength exponent |
|
c |
[-] |
EXP_C |
fatigue ductility exponent |
|
N |
[-] |
number of cycles to crack initiation |
- Rain-flow with von Mises reduction
- Rain-flow with Tresca reduction
- Rain-flow with von Mises (signed) reduction
Elasto-plasticity
- No
- Neuber elastic-plastic accommodation
- Glinka elastic-plastic accommodation
Material parameters
|
E |
[MPa] |
tensile modulus |
|
NU |
[-] |
Poisson’s ratio |
|
SIG_F |
[MPa] |
fatigue strength coefficient |
|
EPS_F |
[-] |
fatigue ductility coefficient |
|
EXP_B |
[-] |
fatigue strength exponent |
|
EXP_C |
[-] |
fatigue ductility exponent |
© PragTic, 2007
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